Add to ORKGSolar flares often accelerate ions and electrons to relativistic energies. The details of the acceleration process are not well understood, but until recently the main trend was to divide the acceleration process into two phases. During the first phase elctrons and ions are heated and accelerated up to several hundreds of keV simultaneously with the energy release. These mildly relativistic electrons interact with the ambient plasma and magnetic fields and generate hard X-ray and radio radiation. The second phase, usually delayed from the first by several minutes, is responsible for accelerating ions and electrons to relativistic energies. Relativistic electrons and ions interact with the solar atmosphere or escape from the Sun and generate...
We present a model for high-energy solar flares to explain prompt proton and electron acceleration, ...
An example is presented from a test particle simulation designed to study ion acceleration at obliqu...
This is a theoretical study of the acceleration of charged particles during solar flares. An attempt...
Solar flares are among the most energetic and interesting phenomena in the Solar system, releasing u...
The acceleration of a huge number of electrons and ions to relativistic energies over timescales ran...
One of the outstanding problems in solar flare theory is how to explain the 10-20 keV and greater ha...
Acceleration of electrons by Langmuir plasma turbulence and by the Fermi mechanism are suggested to ...
We simulate decaying turbulence in a homogeneous pair plasma using a three-dimensional electromagnet...
Rapid fluctuations in the emission of solar bursts may have many different origins e.g., the acceler...
Using a 2 1/2-D fully relativistic electromagnetic particle-in-cell code (PIC) we have investigated ...
We present a model for the acceleration of electrons from thermal to ultrarelativistic energies duri...
During solar flares a large amount of nonthermal electromagnetic radiation up to the γ-ray range is ...
During solar flares a large amount of nonthermal electromagnetic radiation up to the γ-ray range is ...
We study the role of coronal mass ejection (CME) driven shocks in the acceleration of solar energeti...
It is proposed that particles during the second phase of solar flares are accelerated by stochastic ...
We present a model for high-energy solar flares to explain prompt proton and electron acceleration, ...
An example is presented from a test particle simulation designed to study ion acceleration at obliqu...
This is a theoretical study of the acceleration of charged particles during solar flares. An attempt...
Solar flares are among the most energetic and interesting phenomena in the Solar system, releasing u...
The acceleration of a huge number of electrons and ions to relativistic energies over timescales ran...
One of the outstanding problems in solar flare theory is how to explain the 10-20 keV and greater ha...
Acceleration of electrons by Langmuir plasma turbulence and by the Fermi mechanism are suggested to ...
We simulate decaying turbulence in a homogeneous pair plasma using a three-dimensional electromagnet...
Rapid fluctuations in the emission of solar bursts may have many different origins e.g., the acceler...
Using a 2 1/2-D fully relativistic electromagnetic particle-in-cell code (PIC) we have investigated ...
We present a model for the acceleration of electrons from thermal to ultrarelativistic energies duri...
During solar flares a large amount of nonthermal electromagnetic radiation up to the γ-ray range is ...
During solar flares a large amount of nonthermal electromagnetic radiation up to the γ-ray range is ...
We study the role of coronal mass ejection (CME) driven shocks in the acceleration of solar energeti...
It is proposed that particles during the second phase of solar flares are accelerated by stochastic ...
We present a model for high-energy solar flares to explain prompt proton and electron acceleration, ...
An example is presented from a test particle simulation designed to study ion acceleration at obliqu...
This is a theoretical study of the acceleration of charged particles during solar flares. An attempt...